Negative Impact of Poor Decision Making Over Time by Jesse Parent (9238391)

Structural and biochemical evidences for the effect of exercise and intermittent hypobaric hypoxia on the recovery from eccentric exercise-induced muscle damage in trained rats by David Rizo-Roca (601393)

Agricultural insurance preferences of apricot farmers: the case of Malatya by Nihal Acarsoy Bilgin (13288597)

Lapsed El Niño impact on Atlantic and Northwest Pacific tropical cyclone activity in 2023 by Jiuwei Zhao (8548263)

Wollastonite to hinder growth of Aspergillus niger fungus on cotton textile by HAMID R. TAGHIYARI (5834579)

Venezuela by Carlos García-Soto (6918173)

CW attainment is coupled with activation of ecdysone biosynthesis. by Yuya Ohhara (3697570)

“…<p><b>(A)</b> Schematic diagram of the continuous feeding scheme. …”

New approach for the study of paleofloras using geographical information systems applied to Glossopteris Flora by Isabel Cortez Christiano-de-Souza (6118727)

Degeneration of the retina of dn-fgfr1 transgenic animals over time. by Sarah Hochmann (186250)

“…<p><b>A, E</b>) Control (ctrl) and <i>Tg(hsp70l:dnfgfr1-EGFP)</i> (dn-fgfr1) siblings without heat shock (HS) treatment: in both cases no morphological changes were detected <b>B–D</b>) In control siblings, the architecture of the retina and the thickness of the ONL (indicated by the error bar) remains unaffected <b>F–H</b>) In contrast, in transgenic animals a decrease in organization and in the width of the ONL (indicated by decreasing size of error bars) is observed. …”

SGS-LTER CO2 Elevation Study: Plant nitrogen, carbon and carbohydrates from Open Top Chamber project on the Central Plains Experimental Range, Nunn, Colorado, USA 1997 - 2001 by Jack Morgan (690629)

“…Plant samples from ambient and elevated CO2 open-top chambers, and unchambered controls, were collected for nitrogen, carbon and carbohydrates analysis on many dates over a five year period. In general, under elevated CO2, nitrogen was decreased, carbon was increased and carbohydrates were increased. …”

Designation of the experimental setup from Fig 1. by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

Mask models M1–M6 with the corresponding price. by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

S3 File - by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”